A novel programmable gain amplifier( PGA) based on a signal-summing topology is proposed. Different from conventional signal-summing variable gain amplifiers( VGA),a binary-weighted switching technique is employed...A novel programmable gain amplifier( PGA) based on a signal-summing topology is proposed. Different from conventional signal-summing variable gain amplifiers( VGA),a binary-weighted switching technique is employed to vary the current-steering transistors' aspect ratio to change their transconductance, and hence, an accurate gain step size of 6dB is achieved. The constant-g_m biasing technique and the matching of the transistors and resistors ensures that the gain of the proposed topology is independent of the variation of process, voltage and temperature( PVT). P-well NMOS( Nmetal oxide semiconductor) transistors are utilized to eliminate the influence of back-gate effect which will induce gain error.The source-degeneration technique ensures good linearity performance at a low gain. The proposed PGA is fabricated in a0.18 μm CMOS( complementary metal oxide semiconductor)process. The measurement results show a variable gain ranging from 0 to24 dB with a step size of 6 dB and a maximum gain error of 0. 3dB. A constant 3dB bandwidth of 210 MHz is achieved at different gain settings. The measured output 3rd intercept point(OIP3) and minimum noise figure( NF) are20. 9 dBm and 11.1 dB, respectively. The whole PGA has a compact layout of 0.068 mm^2. The total power consumption is4. 8 mW under a 1. 8 V supply voltage.展开更多
基金The National Natural Science Foundation of China(No.61306069)
文摘A novel programmable gain amplifier( PGA) based on a signal-summing topology is proposed. Different from conventional signal-summing variable gain amplifiers( VGA),a binary-weighted switching technique is employed to vary the current-steering transistors' aspect ratio to change their transconductance, and hence, an accurate gain step size of 6dB is achieved. The constant-g_m biasing technique and the matching of the transistors and resistors ensures that the gain of the proposed topology is independent of the variation of process, voltage and temperature( PVT). P-well NMOS( Nmetal oxide semiconductor) transistors are utilized to eliminate the influence of back-gate effect which will induce gain error.The source-degeneration technique ensures good linearity performance at a low gain. The proposed PGA is fabricated in a0.18 μm CMOS( complementary metal oxide semiconductor)process. The measurement results show a variable gain ranging from 0 to24 dB with a step size of 6 dB and a maximum gain error of 0. 3dB. A constant 3dB bandwidth of 210 MHz is achieved at different gain settings. The measured output 3rd intercept point(OIP3) and minimum noise figure( NF) are20. 9 dBm and 11.1 dB, respectively. The whole PGA has a compact layout of 0.068 mm^2. The total power consumption is4. 8 mW under a 1. 8 V supply voltage.
